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以新疆核桃主栽品种'温185'为试材,调查其结果情况,研究其合理负载量。结果表明:核桃品种'温185'的单株产量随树高、冠幅和干径的增加而增大,并呈极显著正相关,其一元回归方程分别为y=2.319 4x-4.918 4(r~2=0.504 1)、y=0.312 1x-0.873 7(r~2=0.581 9)、y=50.521 0x-1.700 9(r~2=0.517 1),多元回归方程为y=-3.493+0.464x_1+0.192x_2+16.086x_3;3~5年生枝组产量与枝条粗度×长度呈极显著正相关,其回归方程为y=0.518 2x+80.208 0(r~2=0.512 3);盛果期树3~5年生枝组叶果比为1.33~5.89,平均叶果比为2.91,3~5年生枝组产量随叶果比的增加而减少,呈极显著负相关,其回归方程为y=-208.32x+1 598.5(r~2=0.109 1)。可见,核桃品种'温185'合理负载的主要指标可由树高、冠幅、干径、叶果比、枝组粗度×长度等来确定。 相似文献
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为了找到快速测量‘野酿2号’与‘桂葡6号’叶面积的办法,本研究以这两种葡萄叶片为研究对象,通过方格纸法测算准确的叶面积,将主脉长、斜长1、斜长2、叶宽等24个叶片参数与实测叶面积进行回归分析。研究结果表明:两种葡萄的(主脉长+斜长1)×叶宽、(主脉长+斜长1+斜长2)×叶宽与其实测叶面积的相关系数均最大;且‘野酿2号’以(主脉长+斜长1)×叶宽为叶片参数的线性方程LA=12.349+0.452[(L+L_1)W]得出的预测叶面积与其实测叶面积无显著性差异,‘桂葡6号’以(主脉长+斜长1+斜长2)×宽为叶片参数的幂函数LA=0.379[(L+L_1+L_2)W]~(0.974)得出的预测叶面积与其实测叶面积无显著性差异。 相似文献
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银杏叶面积和果实鲜重非破坏性测定方法研究 总被引:1,自引:0,他引:1
以扬州大学园艺与植物保护学院果园中的银杏核用主栽品种‘佛指’为材料,定期取其叶片和果实,进行叶片的叶长、叶宽、叶面积和果实的果长、果径、果重之间的回归分析。结果表明:叶面积模型为:y=0.0004×(LL×LW)2+0.6367×LL×LW-0.3395,R2=0.9868,RMSE=1.247;果实鲜重模型为:y=0.0382×(FL×FD)2+1.1663×FL×FD-1.0251,R2=0.9674,RMSE=0.4536。通过对该模型的验证,发现这2个模型能准确地依据叶长、叶宽和果长、果径的资料来模拟银杏叶面积和果实鲜重。 相似文献
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金光杏梅叶面积回归测算研究 总被引:3,自引:1,他引:2
以金光杏梅成熟叶片为试材,研究了叶长、叶宽与叶面积的关系.结果表明:叶长、叶宽与叶面积均呈正相关关系.叶长、叶宽与叶面积之间的相关系数分别为0.7084、0.8546,叶长和叶宽与叶面积的复相关系数为0.9868,在0.01水平下均达到了极显著水平.在此基础上建立了叶长(x1)、叶宽(x2)、叶长和叶宽与叶面积(y)之间的回归方程y=61.4140x1-2 480.6、y=28.7600x2-0.8546、y=17.6276x1+41.2594x2-1 078.4906,3个回归方程均可用于测算金光杏梅的叶面积,其中以叶长和叶宽与叶面积的二元回归方程测算结果更为精确.在具体应用中,可根据所要求的精确度进行选择. 相似文献
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几种蔬菜叶面积的简易测算方法 总被引:2,自引:0,他引:2
现在国外虽已发明了叶面积测量仪,但价格贵且使用起来也不太方便。若能通过叶子的长、宽因子,最好是单因子的数据就能较精确地估算出各种作物的叶面积的话,那末对作物的生长发育、光合作用、预估产量等诸方面的研究都有重要意义。 1987年,Robbins和Pharr等人,通过叶子实际面积的测定及统计学和回归分析,总结出仅用叶子的中脉长度变量,就可较精确地估算出黄瓜叶面积的数学公式: A= - 11. 31 0. 11( L) 1.14(L2),在此, A=叶面积, L=叶子的中脉长度。该公式的预估能力很强(R2=0.96)。 NeSmith等人(199)曾试图应用Robbins等人的上述公式测… 相似文献
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《吉林蔬菜》2018,(Z2)
为探究茼蒿叶片SPAD值与叶绿素含量的相关性,采用SPAD-520叶绿素计与分光光度法分别测定"小叶茼蒿"与"大叶茼蒿"两种茼蒿叶片的SPAD值、叶绿素含量,分析其相关性并建立拟合方程。结果表明,小叶茼蒿叶片的SPAD值与叶绿素a、叶绿素b及叶绿素总含量的相关性为极显著,而大叶茼蒿的SPAD值与叶绿素a、叶绿素b及叶绿素总含量的相关性则较差。就SPAD值与叶绿素a含量的相关性而言,"小叶茼蒿"的最佳函数模型为y=0.0349e0.0571x(r=0.961**),"大叶茼蒿"的最佳函数模型为y=0.3103e0.0087x(r=0.161),两者均为指数函数。就SPAD值与叶绿素b含量的相关性而言,"小叶茼蒿"的最佳函数模型为y=0.5596Ln(x)-1.8316(r=0.845**),"大叶茼蒿"的最佳函数模型为y=0.0009x+0.2058(r=0.065)。就SPAD值与叶绿素总含量的相关性而言,"小叶茼蒿"的最佳函数模型为y=0.0355x-0.8439(r=0.943**),"大叶茼蒿"的最佳函数模型则为y=0.5196e00068x(r=0.133)。 相似文献
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狭叶薰衣草与羽叶薰衣草核型分析 总被引:6,自引:0,他引:6
采用酶解去壁低渗法对狭叶薰衣草(Lavandula angustifolia Mill. ) 和羽叶薰衣草(L. pinnataL. ) 的体细胞染色体进行核型分析。结果表明: 狭叶薰衣草的核型公式为2n = 2x = 50 = 14m + 10 sm + st, 染色体相对长度组成为2n = 50 =L + 11M2 + 13M1, 染色体组型为“2A”型。羽叶薰衣草的核型公式为2n =2x = 22 = 6m + 5 sm ( SAT) , 染色体相对长度组成为2n = 22 = s + 6M1 + 2M2 + 2L, 属于“2B”型。 相似文献
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Leaf area is a commonly used measurement in many horticultural research experiments, but is generally destructive, requiring leaves to be removed for measurement. Leaf removal precludes repeated measures and disrupts carbohydrate assimilation and translocation, which is another frequent parameter of interest. Numerous methods have been devised for estimating leaf area of individual leaves in situ. These methods generally involve measuring leaf parameters such as length and width and using those as variables in an equation describing a relationship between those variables and leaf area specifically developed for each species. However, these methods are typically highly labor intensive when scaling to the level of the shoot because they require each leaf to be measured individually. Here we report on a method that makes use of a regression relationship for non-destructively estimating whole shoot leaf area, but only involves measuring the length of the longest leaf on the shoot and multiplying it by the number of leaves on the shoot. The method has been tested on 14 diverse fruit and nut tree cultivars. Deciduous and evergreen species with both simple and compound leaves were included. For 13 out of 14 cultivars, coefficients of determination (r2) between actual measured leaf area and estimated leaf area were equal to or greater than 0.80. The model was validated for shoot leaf area of different trees in different years for four of the cultivars. The relationship developed for these cultivars appears to be broadly applicable to other tree species and will be a simple and useful tool for research requiring accurate non-destructive estimates of shoot leaf area. 相似文献
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研究了立管悬钵静止水培在各种营养逆境下的缓冲能力.结果表明:立管悬钵静止水培在营养液低氧、不良水质、营养液浓度异常等逆境条件下具有一定的缓冲能力.在营养液低氧条件下,立管悬钵静止水培生菜的根长、开展度、叶长、叶宽、叶面积等指标分别比传统水培生菜高11.37%、19.89%、23.10%、28.59%和44.42%,地上部鲜重、根鲜重、总鲜重等指标分别比其高68.06%、60.32%和66.01%.立管悬钵静止水培生菜的地上部鲜重、根鲜重、总鲜重分别比用地下水配制营养液栽培的生菜高4.28%、8.70%和5.36%.当地下水营养液浓度在1.5、2.0剂量时,立管悬钵静止水培方式在生菜形态指标、鲜重、叶绿素含量等指标的形成上表现出较强的缓冲能力.但是,立管悬钵静止水培对于营养液缺素情况的缓冲效果不明显. 相似文献
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In 6 cultivars of Mangifera indica, 4 linear relationships between leaf surface area and leaf characteristics were investigated in order to find out the best method of estimation. The 4 regression equations estimating leaf surface area were with length and breadth individually and together and with the product of length and breadth. Further investigations were made to compare different cultivars within a method and different methods in a cultivar. For most accurate estimation of the leaf area, the product of length and breadth has to be preferred, and for quick estimation with reasonable accuracy and in view of operational convenience breadth should be used. 相似文献
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The area of leaves of plantain (Musa acuminata × Musa balbisiana) was traced on graph paper. Then the length (L) and the maximum width (W) were measured. A known leaf area from each leaf was taken and both the sample and the remaining leaf blades were dried and weighed. Using known leaf area and their dry weights, the leaf area of each whole leaf was determined. From the regression equation, a coefficient for estimating the true leaf area from the L × W measurements was determined to be 0.8 (approx.) which was statistically significant (P = 0.05).Using a mathematical method (independent of the first method), the coefficient for estimating the true leaf area of plantain was found to be 0.7854. A significant correlation (r, 0.001 = 0.73) was also found between the area traced on graph paper and that determined using the coefficient 0.8 (L × W). 相似文献
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草莓品种对蚜虫的抗性机制 总被引:1,自引:1,他引:0
为探讨草莓品种对蚜虫的抗性机理,以5个常规草莓品种为试材,通过调查、测定大棚内蚜虫自然发生动态和室内人工接虫后种群变化,并对草莓叶片的形态学和生理学特性与抗蚜性的关系进行了分析。结果表明章姬对蚜虫高感,丰香感,卡姆罗莎和吐德拉抗,弗吉尼亚高抗。草莓品种对蚜虫抗性与叶片背面的茸毛密度成正相关,与气孔密度呈显著负相关;与叶片的木质素含量成正比;与酚类物质含量无显著关系,与总游离氨基酸、可溶性固形物含量和水分含量无明显的线性关系。但草莓对蚜虫的抗性程度与叶片中脯氨酸、缬氨酸和胱氨酸的含量有关,特别是缬氨酸和胱氨酸在感蚜品种中的含量是抗蚜品种中的2~3倍。 相似文献
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叶面积大小是决定植物光合作用产物量的重要因素。为了得到一种快速、准确、灵活测定蔬菜叶面积的方法,本试
验以叶用莴苣为例,运用Image J 图像处理软件进行植株叶面积的测定,然后与传统测定方法方格计数法与纸样称重法的测
定结果进行比较验证。结果表明:方格计数法、纸样称重法与Image J 图像处理3 种方法测定结果之间不存在显著性差异;
通过方程线性回归分析发现,3 种方法之间的相关系数均在0.99 以上。由此可见Image J 图像处理软件可准确地应用于叶用
莴苣叶面积测定。 相似文献
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黄瓜群体叶面积无破坏性速测方法研究 总被引:42,自引:4,他引:38
以津优1号和津春4号黄瓜品种叶片为材料,以实际叶面积、叶长、叶宽、肩宽和肩高为测算指标,以成对分析法作统计检验,经计算机择优筛选,获得黄瓜叶面积活体快速估测的一种新方法──等腰三角形法。1999~2000年笔者对此方法的有效性和通用性进行了验证,结果表明:被估测的9个品种(或组合)的叶面积与实际叶面积间均无显著差异。实际应用中,只需测量出叶长,便可简单地估算出叶面积,实现了黄瓜叶面积活体快速估测。 相似文献
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【目的】荔枝特异性、一致性和稳定性(DUS)测试指南中的数量性状是极易受环境条件影响的性状。通过对荔枝测试指南中数量性状的分级研究,以期为荔枝品种数量性状客观准确的描述提供技术依据,以确保荔枝品种DUS测试工作顺利开展。【方法】以74个具有广泛代表性的荔枝品种为研究对象,对荔枝测试指南中9个数量性状进行观测,并依据各性状的特点选择最适的分级方法,对各数量性状的表达状态进行分级范围划分。【结果】9个数量性状变异范围为12.35%~33.09%,性状间相关系数分布在-0.14~0.75之间;正态性分析(K-S检验)结果表明,9个数量性状中有7个数量性状符合正态分布,采用最小显著差法分级,其他性状用极差法分级。【结论】对9个数量性状进行的分级范围研究结果可作为今后荔枝DUS测试数量性状描述分级的依据。 相似文献